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GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Carrying Capacity as an Ecosystem Management tool, http://www.ecowin.org/smile/ GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ • Hydrodynamic model – simulates the circulation and phytoplankton productivity. Used to generate water exchange and boundary conditions to implement ecological models • Shellfish model – Growth predicted by ShellSIM of individual shellfish species is used in the EcoWIN ecological model to simulate the population dynamics of cultivated oysters and mussels • EcoWIN2000(E2K) is an ecological model that provides a platform for integration of the other models and adds functionality of its own. Runs for multi-year periods GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Delft3D Run Delft 3D for large domain (Western Irish Sea and four loughs) using a fine grid (each lough has hundreds of cells) Define larger boxes (<50) within the loughs with GIS for E2K using (I) current and bathymetry data (ii) WFD (iii) aquaculture distribution Use D3D to calculate water fluxes across these larger boxes at 30m intervals, and at the seaward boundary of the lough domain – supply these offline as spreadsheets Hydrodynamic transport simulated in E2K by reading these spreadsheet files during an E2K model run Modelling framework EcoWin2000 Enter larger box areas, volumes etc from GIS into E2K Implement individual growth model in E2K, test, and then add population dynamics Run full E2K model, calibrate and validate Management scenarios Extract E2K initial conditions for state variables in each box, boundary conditions and calibration data Measure individual shellfish growth rates in the field ShellSim2006 Simulate individual shellfish physiology using a raceway model Use results to conceptualise an energy budget model for individual growth Implement and validate individual growth model in Stella or other simple modelling package Prepare a water quality database including both the individual lough and inputs from freshwater and ocean boundaries (measurements) GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ SMILE is an ecosystem model, a series of interconnected boxes 34 boxes, 2 layers Criteria for boxes: Water framework Directive Topography Biogeochemistry GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Strangford Lough EcoWin2000 ecological model 340 boxes 8 s layers 34 boxes 2 σ layers Delft3D Hydrodynamic model A much coarser grid is used in biogeochemical models than in hydrodynamic models. GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ So far! • Developed growth models for Modiolus modiolus, Ostrea edulis and Pecten maximus in addition to existing species • Growth models integrated into software to check that individual growth can be accurately scaled up for ecosystem models • SMILE model framework changed to deal with three new species • Now in position to simulate growth in certain areas at varying densities GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Objectives • Examine growth of Modiolus • Simulate growth • Investigate growth at varying stocking densities for Modiolus • Determine optimal locations for restoration • Examine knock-on effects GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ ShellSIM – simulation of shellfish growth Real time feeding experiments required to measure Modiolus feeding rates. Experiments show how temp and food availability effect feeding. Allowing us to model how changes in the lough (or different areas) will effect Modiolus feeding and hence growth With the addition of population dynamics to the individual model, shellfish stocks can be modelled over mutil-year periods (E2K) GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ • Simulated temperature, illustrating northern and southern trends. Matches well with measured values. GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Simulated temperature graph 18 16 14 12 10 8 6 4 2 0 0 200 Year 1 400 600 Year 2 Box 21 800 Box 22 GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Strangford Lough Box 22 - Lough entrance Phytoplankton (µg Chla l-1) 7 8 SPM (mg l-1) 7 6 6 5 5 4 4 3 3 2 2 1 1 0 0 J F M A M J J A S O N D DIN (µmol l-1) 16 J F M A M J 3 14 J A S O N D N D POM (mg l-1) 2.5 12 2 10 8 1.5 6 1 4 0.5 2 0 0 J F M A M J J A S O N D J F M A M J J A S O GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Simulated growth curve for Pecten maximus 160 Observed growth Shell length (mm) 140 Simulated growth 120 100 80 60 40 20 0 0 365 730 1095 1460 1825 2190 2555 2920 3285 3650 4015 4380 4745 5110 5475 5840 Julian Days over 15 years GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ M. modiolus growth y = 25.058Ln(x) + 13.677 R2 = 0.6814 160 140 120 100 shell length 80 Log. (shell length) 60 40 20 0 0 10 20 30 40 50 GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Modiolus individual growth 16 14 12 10 Box 27 8 Box 28 6 Box 29 4 2 0 0 500 1000 Year 1500 5 2000 2500 3000 3500 4000 Year 10 size refuge/ sexual maturity match to measured growth, 10y mean length of 7cm GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Possible factors Phytoplankton biomass at 50 POM at 50 6 5 4.5 5 4 Box 27 3.5 3 Box 28 2.5 2 Box 29 4 Box 27 3 Box 28 Box 29 2 1.5 1 1 0.5 0 2900 3000 3100 3200 3300 3400 3500 3600 3700 0 2900 3000 3100 3200 3300 3400 3500 NB. Important to remember, only modelling Mytilus, Crassostrea and Modiolus at present, need to turn on wild species and additional aquaculture species 3600 3700 Run 1 no shellfish - Simulated Chl a values, bottom Box 28 Run 3 all2.29, shellfish Simulated Chl a, bottom Box 28 Run 2(mean M.m and wild4.47, - -Simulated max min 0.75) Chl a, bottom Box 28 (mean 1.35, max 2.55,min 0.48) (mean 1.35, max 2.56, min 0.48) 1010 10 8 88 6 66 Box28 28 Box Box 28 4 44 2 22 0 0 0 2900 3000 2900 3000 3000 2900 3100 3100 3100 3200 3200 3200 3300 3300 3300 3400 3400 3400 3500 3500 3500 3600 3600 3600 3700 3700 3700 GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ • Food does not seem to be limiting! • • • • Other factors, including: Suitable habitat Predation pressure Brood stock availability….. GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Next step • Integrate Wild species • Turn on new Aquaculture species • Invite scenarios GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ GEM – Geochemical and Ecological Modelling Address http://www.ecowin.org/ Operate at Eunis level three or four; . Rather than worrying about individual species use broadscale habitat layers; Assign loss rates or or “feeding” rates based on top five keystone species; Each habitat will be assigned a feeding type – i.e deposit, suspension feeder;
